2. Introduction
IFC,CTM77 –19–18SEP00–1/1
Foreword
This manual is written for an experienced technician.
Essential tools required in performing certain service
work are identified in this manual and are
recommended for use.
Live with safety: Read the safety messages in the
introduction of this manual and the cautions presented
throughout the text of the manual.
CAUTION: This is the safety-alert symbol.
When you see this symbol on the machine
or in this manual, be alert to the potential for
personal injury.
This Component Technical Manual (CTM) contains the
latest available instructions necessary to repair engine
alternators and starter motors. It includes theory of
operation, and diagnostic and testing procedures to
help troubleshoot and understand potential failure
modes.
The information is organized in sections and groups by
various suppliers. At the beginning of each repair
group are summary listings of all applicable essential
tools, service equipment and tools, other materials
needed to do the job, service parts kits, specifications,
wear tolerances, and torque values.
Component Technical Manuals are concise service
guides for specific components. They are written as
stand-alone manuals covering multiple machine
applications.
Fundamental service information is available from
other sources covering basic theory of operation,
fundamentals of troubleshooting, general maintenance,
and basic types of failures and their causes.
This manual covers alternator and starter motor
applications for all John Deere diesel engines—
both older 300/400/500-Series and newer
POWERTECH
2.9 L—12.5 L engines. This manual
covers components for both Deere OEM engines
and Deere machine engine applications.
NOTE: Remanufactured alternators and starter motors
are available for replacement on most
applications listed in this manual. Refer to
John Deere’s “Remanufactured Components”
catalogs to cross-reference your original
equipment part number and obtain a suitable
remanufactured replacement starter or
alternator.
POWERTECH is a registered trademark of Deere & Company.
CTM77 (30OCT00) Alternators and Starter Motors
103000
PN=2
3. Introduction
OUO1004,0000B49 –19–15SEP00–1/1
John Deere Dealers
IMPORTANT: Please copy this page listing changes
and route it through your service
department.
This CTM is a complete revision of CTM77, Alternators
and Starter Motors, dated 15 MAR 97.
This manual covers alternators and starter motors on
most John Deere applications manufactured since 1972,
except 40, 50 and 55 Series Utility Tractors.
New information added to this manual includes:
• Section 45—Leece-Neville Alternators
• Section 50—Prestolite Alternators
Revised information includes:
1. Updated specifications for all current alternators and
starter motors, including those adopted since the 15
MAR 97 edition.
2. Added new applications and specifications for all
current alternators and starter motors.
CTM77 (30OCT00) Alternators and Starter Motors
103000
PN=3
4. Contents
05
SECTION 05—Introduction and Safety Information SECTION 40—Magneton Alternators
Group 05—Magneton Alternator Theory of
Group 05—Safety
Group 10—General Information Operation
Group 10—Magneton Alternator Repair
Group 15—Electrical System Basic Information and
Wiring Diagrams
10
SECTION 45—Leece-Neville Alternators
SECTION 10—Delco-Remy Alternators Group 05—Leece-Neville Alternator Theory of
Group 05—Delco-Remy Alternator Theory of Operation
Operation Group 10—Leece-Neville Alternator Repair
Group 10—Delco-Remy (Delcotron) 10SI, 12SI and
15SI Alternator Repair SECTION 50—Prestolite Alternators
Group 15—Delco-Remy (Delcotron) 21SI Alternator Group 05—Prestolite Alternator Theory of Operation
Repair Group 10—Prestolite Alternator Repair
SECTION 15—Motorola Alternators
SECTION 60—Delco-Remy Starter Motors
Group 05—Motorola Alternator Theory of Operation
Group 05—Starting Circuit Theory of Operation
Group 10—Motorola 8E-Series Alternator Repair
15
Group 10—Delco-Remy 10/20/22/25/27/28MT
Group 15—Motorola HC-, MA-, MR-Series
Starter Motor Repair
Alternator Repair
Group 15—Delco-Remy 30MT, 35MT, 37MT Starter
Group 20—Motorola A-, RA-, 8AR-Series Alternator
Motor Repair
Repair
Group 20—Delco-Remy 40MT, 41MT, 42MT, 50MT
Group 25—Motorola SA-Series Alternator Repair
Starter Motor Repair
Group 30—Motorola TA-Series Alternator Repair
SECTION 65—John Deere/Denso Starter Motors
SECTION 20—Niehoff Alternators
Group 05—Starting Circuit Theory of Operation
Group 05—Niehoff Alternator Theory of Operation
Group 10—John Deere/Denso Conventional Starter
Group 10—Niehoff 12-Volt, 110-Amp Alternator
Motor Repair
Repair
20
Group 15—John Deere/Denso Gear Reduction
Group 15—Niehoff 24-Volt, 50-Amp Alternator
Starter Motor Repair
Repair
SECTION 70—Robert Bosch Starter Motors
SECTION 25—Denso Alternators
Group 05—Starting Circuit Theory of Operation
Group 05—Denso Alternator Theory of Operation
Group 10—Robert Bosch Starter Motor Repair
Group 10—Denso Alternator with Add-On Regulator
Repair
SECTION 75—Iskra Starter Motors
Group 15—Denso Alternator with Built-In Regulator
Group 05—Starting Circuit Theory of Operation
Repair
Group 10—Iskra Starter Motor Repair
SECTION 30—Robert Bosch Alternators
25
Group 05—Robert Bosch Alternator Theory of SECTION 80—Valeo Starter Motors
Operation Group 05—Starting Circuit Theory of Operation
Group 10—Robert Bosch Alternator Repair Group 10—Valeo Starter Motor Repair
SECTION 35—Valeo Alternators
Group 05—Valeo Alternator Theory of Operation
Group 10—Valeo Alternator Repair
Group 15—Valeo A13N-Series Alternator Repair
All information, illustrations and specifications in this manual are based on
the latest information available at the time of publication. The right is
reserved to make changes at any time without notice.
30
COPYRIGHT
2000
DEERE & COMPANY
Moline, Illinois
All rights reserved
A John Deere ILLUSTRUCTION
Manual
Previous Editions
Copyright
1994, 1997
35
40
45
50
CTM77 (30OCT00) i Alternators and Starter Motors
103000
PN=1
6. Group 05
Safety
05
05
1
DX,FLAME –19–29SEP98–1/1
Handle Fluids Safely—Avoid Fires
TS227
–UN–23AUG88
When you work around fuel, do not smoke or work near
heaters or other fire hazards.
Store flammable fluids away from fire hazards. Do not
incinerate or puncture pressurized containers.
Make sure machine is clean of trash, grease, and debris.
Do not store oily rags; they can ignite and burn
spontaneously.
DX,SPARKS –19–03MAR93–1/1
Prevent Battery Explosions
TS204
–UN–23AUG88
Keep sparks, lighted matches, and open flame away from
the top of battery. Battery gas can explode.
Never check battery charge by placing a metal object
across the posts. Use a volt-meter or hydrometer.
Do not charge a frozen battery; it may explode. Warm
battery to 16°C (60°F).
DX,FIRE2 –19–03MAR93–1/1
Prepare for Emergencies
TS291
–UN–23AUG88
Be prepared if a fire starts.
Keep a first aid kit and fire extinguisher handy.
Keep emergency numbers for doctors, ambulance service,
hospital, and fire department near your telephone.
CTM77 (30OCT00) 05-05-1 Alternators and Starter Motors
103000
PN=9
7. Safety
05
05
2
DPSG,OUO1004,2758 –19–11MAY00–1/1
Handling Batteries Safely
TS204
–UN–23AUG88
TS203
–UN–23AUG88
CAUTION: Battery gas can explode. Keep
sparks and flames away from batteries. Use a
flashlight to check battery electrolyte level.
Never check battery charge by placing a metal
object across the posts. Use a voltmeter or
hydrometer.
Always remove grounded (—) battery clamp
first and replace it last.
CAUTION: Sulfuric acid in battery electrolyte is
poisonous. It is strong enough to burn skin, eat
holes in clothing, and cause blindness if
splashed into eyes.
Avoid the hazard by:
1. Filling batteries in a well-ventilated area.
2. Wearing eye protection and rubber gloves.
3. Avoiding breathing fumes when electrolyte is
added.
4. Avoiding spilling or dripping electrolyte.
5. Using proper jump start procedure.
If you spill acid on yourself:
1. Flush your skin with water.
2. Apply baking soda or lime to help neutralize
the acid.
3. Flush your eyes with water for 15—30
minutes. Get medical attention immediately.
If acid is swallowed:
1. Do not induce vomiting.
2. Drink large amounts of water or milk, but do
not exceed 2 L (2 quarts).
3. Get medical attention immediately.
WARNING: Battery posts, terminals, and related
accessories contain lead and lead compounds, chemicals
known to the State of California to cause cancer and
reproductive harm. Wash hands after handling.
CTM77 (30OCT00) 05-05-2 Alternators and Starter Motors
103000
PN=10
8. Safety
05
05
3
DX,WEAR –19–10SEP90–1/1
Wear Protective Clothing
TS206
–UN–23AUG88
Wear close fitting clothing and safety equipment
appropriate to the job.
Prolonged exposure to loud noise can cause impairment
or loss of hearing.
Wear a suitable hearing protective device such as
earmuffs or earplugs to protect against objectionable or
uncomfortable loud noises.
Operating equipment safely requires the full attention of
the operator. Do not wear radio or music headphones
while operating machine.
DX,CLEAN –19–04JUN90–1/1
Work in Clean Area
T6642EJ
–UN–18OCT88
Before starting a job:
• Clean work area and machine.
• Make sure you have all necessary tools to do your job.
• Have the right parts on hand.
• Read all instructions thoroughly; do not attempt
shortcuts.
DX,LOOSE –19–04JUN90–1/1
Service Machines Safely
TS228
–UN–23AUG88
Tie long hair behind your head. Do not wear a necktie,
scarf, loose clothing, or necklace when you work near
machine tools or moving parts. If these items were to get
caught, severe injury could result.
Remove rings and other jewelry to prevent electrical
shorts and entanglement in moving parts.
CTM77 (30OCT00) 05-05-3 Alternators and Starter Motors
103000
PN=11
9. Safety
05
05
4
DX,AIR –19–17FEB99–1/1
Work In Ventilated Area
TS220
–UN–23AUG88
Engine exhaust fumes can cause sickness or death. If it is
necessary to run an engine in an enclosed area, remove
the exhaust fumes from the area with an exhaust pipe
extension.
If you do not have an exhaust pipe extension, open the
doors and get outside air into the area
DX,LIGHT –19–04JUN90–1/1
Illuminate Work Area Safely
TS223
–UN–23AUG88
Illuminate your work area adequately but safely. Use a
portable safety light for working inside or under the
machine. Make sure the bulb is enclosed by a wire cage.
The hot filament of an accidentally broken bulb can ignite
spilled fuel or oil.
DX,LIFT –19–04JUN90–1/1
Use Proper Lifting Equipment
TS226
–UN–23AUG88
Lifting heavy components incorrectly can cause severe
injury or machine damage.
Follow recommended procedure for removal and
installation of components in the manual.
CTM77 (30OCT00) 05-05-4 Alternators and Starter Motors
103000
PN=12
10. Safety
05
05
5
DX,PAINT –19–22OCT99–1/1
Remove Paint Before Welding or Heating
TS220
–UN–23AUG88
Avoid potentially toxic fumes and dust.
Hazardous fumes can be generated when paint is heated
by welding, soldering, or using a torch.
Remove paint before heating:
• Remove paint a minimum of 76 mm (3 in.) from area to
be affected by heating.
• If you sand or grind paint, avoid breathing the dust.
Wear an approved respirator.
• If you use solvent or paint stripper, remove stripper with
soap and water before welding. Remove solvent or
paint stripper containers and other flammable material
from area. Allow fumes to disperse at least 15 minutes
before welding or heating.
Do all work in an area that is ventilated to carry toxic
fumes and dust away.
Dispose of paint and solvent properly.
CTM77 (30OCT00) 05-05-5 Alternators and Starter Motors
103000
PN=13
11. Safety
05
05
6
DX,SERV –19–17FEB99–1/1
Practice Safe Maintenance
TS218
–UN–23AUG88
Understand service procedure before doing work. Keep
area clean and dry.
Never lubricate, service, or adjust machine while it is
moving. Keep hands, feet , and clothing from
power-driven parts. Disengage all power and operate
controls to relieve pressure. Lower equipment to the
ground. Stop the engine. Remove the key. Allow machine
to cool.
Securely support any machine elements that must be
raised for service work.
Keep all parts in good condition and properly installed. Fix
damage immediately. Replace worn or broken parts.
Remove any buildup of grease, oil, or debris.
On self-propelled equipment, disconnect battery ground
cable (-) before making adjustments on electrical systems
or welding on machine.
On towed implements, disconnect wiring harnesses from
tractor before servicing electrical system components or
welding on machine.
DX,REPAIR –19–17FEB99–1/1
Use Proper Tools
TS779
–UN–08NOV89
Use tools appropriate to the work. Makeshift tools and
procedures can create safety hazards.
Use power tools only to loosen threaded parts and
fasteners.
For loosening and tightening hardware, use the correct
size tools. DO NOT use U.S. measurement tools on
metric fasteners. Avoid bodily injury caused by slipping
wrenches.
Use only service parts meeting John Deere specifications.
CTM77 (30OCT00) 05-05-6 Alternators and Starter Motors
103000
PN=14
12. Safety
05
05
7
DX,DRAIN –19–03MAR93–1/1
Dispose of Waste Properly
TS1133
–UN–26NOV90
Improperly disposing of waste can threaten the
environment and ecology. Potentially harmful waste used
with John Deere equipment include such items as oil, fuel,
coolant, brake fluid, filters, and batteries.
Use leakproof containers when draining fluids. Do not use
food or beverage containers that may mislead someone
into drinking from them.
Do not pour waste onto the ground, down a drain, or into
any water source.
Air conditioning refrigerants escaping into the air can
damage the Earth’s atmosphere. Government regulations
may require a certified air conditioning service center to
recover and recycle used air conditioning refrigerants.
Inquire on the proper way to recycle or dispose of waste
from your local environmental or recycling center, or from
your John Deere dealer.
DX,BYPAS1 –19–29SEP98–1/1
Prevent Machine Runaway
TS177
–UN–11JAN89
Avoid possible injury or death from machinery runaway.
Do not start engine by shorting across starter terminals.
Machine will start in gear if normal circuitry is bypassed.
NEVER start engine while standing on ground. Start
engine only from operator’s seat, with transmission in
neutral or park.
DX,LIVE –19–25SEP92–1/1
Live With Safety
TS231
–19–07OCT88
Before returning machine to customer, make sure
machine is functioning properly, especially the safety
systems. Install all guards and shields.
CTM77 (30OCT00) 05-05-7 Alternators and Starter Motors
103000
PN=15
13. Group 10
General Information
05
10
1
DX,TORQ1 –19–01OCT99–1/1
Unified Inch Bolt and Cap Screw Torque Values
TORQ1A
–UN–27SEP99
Top, SAE Grade and Head Markings; Bottom, SAE Grade and Nut Markings
Grade 1 (No Mark) Grade 2a
(No Mark) Grade 5, 5.1 or 5.2 Grade 8 or 8.2
Size Lubricatedb
Dryc
Lubricatedb
Dryc
Lubricatedb
Dryc
Lubricatedb
Dryc
N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft)
1/4 3.8 (2.8) 4.7 (3.5) 6 (4.4) 7.5 (5.5) 9.5 (7) 12 (9) 13.5 (10) 17 (12.5)
5/16 7.7 (5.7) 9.8 (7.2) 12 (9) 15.5 (11.5) 19.5 (14.5) 25 (18.5) 28 (20.5) 35 (26)
3/8 13.5 (10) 17.5 (13) 22 (16) 27.5 (20) 35 (26) 44 (32.5) 49 (36) 63 (46)
7/16 22 (16) 28 (20.5) 35 (26) 44 (32.5) 56 (41) 70 (52) 80 (59) 100 (74)
1/2 34 (25) 42 (31) 53 (39) 67 (49) 85 (63) 110 (80) 120 (88) 155 (115)
9/16 48 (35.5) 60 (45) 76 (56) 95 (70) 125 (92) 155 (115) 175 (130) 220 (165)
5/8 67 (49) 85 (63) 105 (77) 135 (100) 170 (125) 215 (160) 240 (175) 305 (225)
3/4 120 (88) 150 (110) 190 (140) 240 (175) 300 (220) 380 (280) 425 (315) 540 (400)
7/8 190 (140) 240 (175) 190 (140) 240 (175) 490 (360) 615 (455) 690 (510) 870 (640)
1 285 (210) 360 (265) 285 (210) 360 (265) 730 (540) 920 (680) 1030 (760) 1300 (960)
1-1/8 400 (300) 510 (375) 400 (300) 510 (375) 910 (670) 1150 (850) 1450 (1075) 1850 (1350)
1-1/4 570 (420) 725 (535) 570 (420) 725 (535) 1280 (945) 1630 (1200) 2050 (1500) 2600 (1920)
1-3/8 750 (550) 950 (700) 750 (550) 950 (700) 1700 (1250) 2140 (1580) 2700 (2000) 3400 (2500)
1-1/2 990 (730) 1250 (930) 990 (730) 1250 (930) 2250 (1650) 2850 (2100) 3600 (2650) 4550 (3350)
a
Grade 2 applies for hex cap screws (not hex bolts) up to 6 in. (152 mm) long. Grade 1 applies for hex cap screws over 6 in. (152 mm) long,
and for all other types of bolts and screws of any length.
b
"Lubricated" means coated with a lubricant such as engine oil, or fasteners with phosphate and oil coatings.
c
"Dry" means plain or zinc plated without any lubrication.
DO NOT use these values if a different torque value or tightening Make sure fastener threads are clean and that you properly start
procedure is given for a specific application. Torque values listed are thread engagement. This will prevent them from failing when
for general use only. Check tightness of fasteners periodically. tightening.
Shear bolts are designed to fail under predetermined loads. Always Tighten plastic insert or crimped steel-type lock nuts to approximately
replace shear bolts with identical grade. 50 percent of the dry torque shown in the chart, applied to the nut,
not to the bolt head. Tighten toothed or serrated-type lock nuts to the
full torque value.
Fasteners should be replaced with the same or higher grade. If
higher grade fasteners are used, these should only be tightened to
the strength of the original.
CTM77 (30OCT00) 05-10-1 Alternators and Starter Motors
103000
PN=17
14. General Information
05
10
2
DX,TORQ2 –19–01OCT99–1/1
Metric Bolt and Cap Screw Torque Values
TORQ2
–UN–07SEP99
Top, Property Class and Head Markings; Bottom, Property Class and Nut Markings
Class 4.8 Class 8.8 or 9.8 Class 10.9 Class 12.9
Size Lubricateda
Dryb
Lubricateda
Dryb
Lubricateda
Dryb
Lubricateda
Dryb
N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft) N•m(lb-ft)
M6 4.7 (3.5) 6 (4.4) 9 (6.6) 11.5 (8.5) 13 (9.5) 16.5 (12.2) 15.5 (11.5) 19.5 (14.5)
M8 11.5 (8.5) 14.5 (10.7) 22 (16) 28 (20.5) 32 (23.5) 40 (29.5) 37 (27.5) 47 (35)
M10 23 (17) 29 (21) 43 (32) 55 (40) 63 (46) 80 (59) 75 (55) 95 (70)
M12 40 (29.5) 50 (37) 75 (55) 95 (70) 110 (80) 140 (105) 130 (95) 165 (120)
M14 63 (46) 80 (59) 120 (88) 150 (110) 175 (130) 220 (165) 205 (150) 260 (190)
M16 100 (74) 125 (92) 190 (140) 240 (175) 275 (200) 350 (255) 320 (235) 400 (300)
M18 135 (100) 170 (125) 265 (195) 330 (245) 375 (275) 475 (350) 440 (325) 560 (410)
M20 190 (140) 245 (180) 375 (275) 475 (350) 530 (390) 675 (500) 625 (460) 790 (580)
M22 265 (195) 330 (245) 510 (375) 650 (480) 725 (535) 920 (680) 850 (625) 1080 (800)
M24 330 (245) 425 (315) 650 (480) 820 (600) 920 (680) 1150 (850) 1080 (800) 1350 (1000)
M27 490 (360) 625 (460) 950 (700) 1200 (885) 1350 (1000) 1700 (1250) 1580 (1160) 2000 (1475)
M30 660 (490) 850 (625) 1290 (950) 1630 (1200) 1850 (1350) 2300 (1700) 2140 (1580) 2700 (2000)
M33 900 (665) 1150 (850) 1750 (1300) 2200 (1625) 2500 (1850) 3150 (2325) 2900 (2150) 3700 (2730)
M36 1150 (850) 1450 (1075) 2250 (1650) 2850 (2100) 3200 (2350) 4050 (3000) 3750 (2770) 4750 (3500)
a
"Lubricated" means coated with a lubricant such as engine oil, or fasteners with phosphate and oil coatings.
b
"Dry" means plain or zinc plated without any lubrication.
DO NOT use these values if a different torque value or tightening Make sure fastener threads are clean and that you properly start
procedure is given for a specific application. Torque values listed are thread engagement. This will prevent them from failing when
for general use only. Check tightness of fasteners periodically. tightening.
Shear bolts are designed to fail under predetermined loads. Always Tighten plastic insert or crimped steel-type lock nuts to approximately
replace shear bolts with identical property class. 50 percent of the dry torque shown in the chart, applied to the nut,
not to the bolt head. Tighten toothed or serrated-type lock nuts to the
full torque value.
Fasteners should be replaced with the same or higher property class.
If higher property class fasteners are used, these should only be
tightened to the strength of the original.
CTM77 (30OCT00) 05-10-2 Alternators and Starter Motors
103000
PN=18
15. Group 15
Electrical System Basic Information and Wiring Diagrams
05
15
1
DPSG,OUO1004,785 –19–19APR99–1/1
Electrical Circuit Malfunctions
T7713AD
–19–27FEB92
A—Battery C—Switch D—Light E—Ground
B—Fuse
1. There are four common circuit malfunctions.
• High-Resistance Circuit
• Open Circuit
• Grounded Circuit
• Shorted Circuit
2. Three sections in a simple circuit where these
malfunctions can occur:
• Before the controlling switch (C).
• Between the controlling switch and before the
component, light (D).
• After the component.
Component malfunctions can easily be confused with
circuit malfunctions. Therefore, care must be exercised
when isolating the cause of a problem.
Example: Light does not operate or is dim when switch
is turned ON, until switch connector is disconnected
and reconnected.
Reason: High resistance caused by a dirty switch
connector, caused a voltage drop which prevented the
proper amount of current from flowing to the light.
CTM77 (30OCT00) 05-15-1 Alternators and Starter Motors
103000
PN=19
16. Electrical System Basic Information and Wiring Diagrams
05
15
2
DPSG,OUO1004,660 –19–15MAR99–1/1
High Resistance Circuit
T7713AG
–19–26FEB92
A—Battery D—Switch Terminal F—Harness Connector H—Light
B—Fuse E—High Resistance G—Light Terminal I—Ground
C—Switch
A high resistance circuit can result in slow, dim or no
component operation.
Examples: Loose, corroded, dirty or oily terminals.
Wire size too small. Strands broken inside the wire.
Poor ground connection to frame.
To locate the cause of high resistance:
With switch (C) ON, check for battery voltage between
switch and ground (I) at an easily accessible location,
like harness connector (F).
If less than battery voltage is indicated, check again
closer to switch.
If battery voltage is indicated, check closer to ground
to locate point of voltage drop. The example shows
high resistance (E) between switch and harness
connector.
Repair circuit as required. In the example, strands
were broken inside the wire. Replace that section of
wire.
Repeat check-out procedure after repair.
CTM77 (30OCT00) 05-15-2 Alternators and Starter Motors
103000
PN=20
17. Electrical System Basic Information and Wiring Diagrams
05
15
3
DPSG,OUO1004,661 –19–15MAR99–1/2
Open Circuit
T7713AF
–19–27FEB92
A—Battery D—Switch Terminal F—Open Circuit H—Light
B—Fuse E—Harness Connector G—Light Terminal I—Ground
C—Switch
An open circuit will result in no components operating.
Fuse may or may not be blown.
Example: Broken wire, disconnected component
terminal, pins inside a connector not making contact,
blown fuse, open circuit breaker, failed switch or
component, or a disconnected ground wire.
To locate an open circuit:
Check fuse. If blown, replace and operate circuit. If
fuse blows a second time, continue check.
With switch (C) ON, check for battery voltage at switch
terminal (D).
If no voltage is indicated, check switch, fuse and wiring
to battery.
If battery voltage is indicated, check for voltage closer
to ground at harness connector (E).
If no voltage is indicated, wire may be broken between
switch and connector.
If battery voltage is indicated, inspect connector pins. If
pins are OK, check for voltage at light terminal (G).
In the example, zero voltage will be indicated at light
terminal, indicating a broken wire between harness
connector and light terminal.
If battery voltage had been indicated, the next check
for voltage would be at ground connection (I).
Normal indicated voltage at a ground connection
should be 0.0 to 0.5 volts.
CTM77 (30OCT00) 05-15-3 Alternators and Starter Motors
103000
PN=21
Continued on next page
18. Electrical System Basic Information and Wiring Diagrams
05
15
4
DPSG,OUO1004,661 –19–15MAR99–2/2
If battery voltage is indicated, poor connection to frame
or broken wire is indicated.
When problem is located, repair as needed, then
repeat last check.
CTM77 (30OCT00) 05-15-4 Alternators and Starter Motors
103000
PN=22
19. Electrical System Basic Information and Wiring Diagrams
05
15
5
DPSG,OUO1004,662 –19–15MAR99–1/2
Grounded Circuit
T7713AE
–19–27FEB92
A—Battery D—Switch G—Harness Connector J—Light
B—Fuse E—Switch Terminal H—Grounded Circuit K—Ground
C—Fuse Terminal F—Harness Connector I—Light (Component) Terminal
If no component operates, the fuse is blown and
replacement fuses blow immediately or the circuit
breaker is open and reopens when reset, a grounded
circuit exists. (Example: power wire contacting frame
or other metal component). A wire may be pinched or
insulation may be worn from a wire. To isolate the
location of a grounded circuit:
If circuit is grounded between battery and fuse, wire
will be burned and circuit will be open. Fuse will not be
blown.
If fuse is blown, remove fuse from circuit, disconnect
circuit near its center, such as harness connector (F).
Turn switch (D) ON and check for continuity to ground
at harness connector (F). This will check harness from
harness connector to fuse.
If continuity to ground is indicated, there is a pinched
or bare wire between fuse terminal (C) and harness
connector (F).
If continuity to ground does not exist, disconnect
ground (K) from frame. Measure continuity to ground
at harness connector (G). This checks harness from
harness connector to ground terminal. In the example,
continuity to ground will exist because circuit is
grounded (wire is pinched) at (H).
If continuity exists, disconnect circuit at light terminal
(I) and measure continuity to ground on light terminal.
This checks harness from light to ground terminal. In
the example, continuity will not exist, indicating a
grounded circuit between the light and harness
connector (G).
CTM77 (30OCT00) 05-15-5 Alternators and Starter Motors
103000
PN=23
Continued on next page
20. Electrical System Basic Information and Wiring Diagrams
05
15
7
DPSG,OUO1004,664 –19–15MAR99–1/2
Shorted Circuit
T7713AH
–19–27FEB92
A—Battery E—Switch Terminal I—Harness Connector L—Light
B—Fuse F—Switch J—Light M—Ground
C—Fuse G—Harness Connector K—Light Terminal N—Ground
D—Switch H—Shorted Circuit
A shorted circuit causes components in separate
circuits to operate when a switch in either circuit is
turned ON. (Example: two harnesses rubbing together
until insulation is worn through, allowing bare wires to
touch). Components can also become shorted.
However, shorted components will usually blow the
fuse.
To locate a shorted circuit:
Turn switch (F) ON then OFF. Turn switch (D) ON
then OFF. Both lights (J and L) will be ON when either
switch (D or F) is ON.
Turn switch (F) ON. Both lights (J and L) will be ON;
only light (L) should be ON.
Disconnect wire from switch of component that should
not be ON. In the example, disconnect wire from
terminal (E) at switch (D). Light (J) remains ON.
Disconnect circuit at convenient places like harness
connectors (G) and (I) and light terminal (K) until light
(J) goes OFF.
The short circuit will be between the last two places
the circuit was disconnected. In the example, it is
between harness connectors (G and I). Light (J) will go
OFF when harness connector (I) is disconnected.
Inspect harness between connectors (G and I).
CTM77 (30OCT00) 05-15-7 Alternators and Starter Motors
103000
PN=25
Continued on next page
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22. Electrical System Basic Information and Wiring Diagrams
05
15
8
DPSG,OUO1004,664 –19–15MAR99–2/2
Repair or replace wires and harnesses as needed.
Install tie bands and clamps on harnesses as required
to prevent future problems.
Repeat check-out procedure after repair.
DPSG,OUO1004,666 –19–15MAR99–1/2
Seven Step Electrical Test Procedure
T7719AA
–19–05MAR92
A—Battery Ground D—Fuse or Circuit Breaker G—Battery Side of Component I—Ground Side of Component
B—Battery E—Component Side of Fuse or Terminal Terminal
C—Battery Side of Fuse or Circuit Breaker H—Light (Component) J—Component Ground
Circuit Breaker F—Switch
Continued on next page
CTM77 (30OCT00) 05-15-8 Alternators and Starter Motors
103000
PN=26
23. Electrical System Basic Information and Wiring Diagrams
05
15
9
DPSG,OUO1004,666 –19–15MAR99–2/2
Step 1—Switch ON
Check battery side of circuit breaker (C) for battery voltage. Battery voltage normal, go to Step 2.
Low voltage, repair high resistance. Open circuit from battery.
Step 2—Switch OFF
Check component side of circuit breaker (E) for battery voltage. Battery voltage normal, go to Step 4.
Low voltage, repair high resistance.
No voltage, go to Step 3.
Step 3—Switch OFF
Check component side of circuit breaker (E) for continuity to ground. Continuity to ground, repair grounded circuit at or before switch.
No continuity to ground, replace circuit breaker.
Step 4—Switch ON
Check component side of circuit breaker (E) for battery voltage. Battery voltage normal, go to Step 6.
Low voltage, repair high resistance.
No voltage, go to Step 5.
Step 5 a
Disconnect wire at battery side of component (G). Switch ON. Check Battery voltage, repair component.
wire at (G) for battery voltage. No voltage, repair grounded or open circuit at or after switch.
Step 6—Switch ON
Check lead to component at (G) for battery voltage. Battery voltage normal, go to Step 7.
Low voltage, repair high resistance in circuit between fuse and
component.
No voltage, repair high resistance or open circuit between fuse and
component.
Step 7—Switch ON
Check ground wire of component at (I) for voltage. No voltage, good continuity to ground, repair component.
Voltage, poor continuity to ground, repair high resistance or open
ground circuit.
a
A multimeter will not apply a load to the circuit at Step 5. The multimeter result is tested as a voltage condition in the result column.
CTM77 (30OCT00) 05-15-9 Alternators and Starter Motors
103000
PN=27
24. Electrical System Basic Information and Wiring Diagrams
05
15
10
DPSG,OUO1004,665 –19–15MAR99–1/1
Multimeter
T8074AA
–19–03SEP93
A—Display
B—Voltage AC (Alternating Current)
C—Voltage DC (Direct Current)
D—Resistance
E—Diode Test/Continuity
F—Current AC (Alternating Current)
G—Current DC (Direct Current)
H—Voltage, Resistance, Diode/Continuity (Red Lead
Input)
I—Ground (Black Lead Input)
J—Current/Amps (Red Lead Input)
The multimeter is an autoranging digital display that
allows very accurate readings to be taken.
CTM77 (30OCT00) 05-15-10 Alternators and Starter Motors
103000
PN=28